CN106774934A - Multimedia playing progress control method and system - Google Patents

Abstract

The invention is suitable for the field of terminals and provides a multimedia playing progress control method and intelligent wearable equipment. The method comprises the following steps: the intelligent wearable equipment acquires the shaking parameter information of the intelligent wearable equipment, the intelligent wearable equipment compares the shaking parameter information with a preset progress control rule table, generates a corresponding progress control signal and sends the corresponding progress control signal to the mobile terminal, and the preset progress control rule table comprises: the mobile terminal receives the progress control signal, compares the progress control signal with the preset progress control rule table to obtain a progress time value to be adjusted, and adjusts the playing progress of the multimedia in the mobile terminal according to the progress time value to be adjusted. The method can improve the flexibility of the multimedia playing progress control.

Description

Multimedia playback progress control method and system

technical field

The embodiments of the present invention belong to the field of terminals, and in particular relate to a method and system for controlling multimedia playback progress.

Background technique

With the continuous development of electronic technology, mobile terminals such as smart phones or tablet computers are becoming more and more popular, and users use mobile terminals to play multimedia (such as video, audio or e-books, etc.). In the prior art, when a user uses a mobile device to play a video, he needs to touch the mobile device with his hand to control the playback progress of the video. However, due to the large contact area between the finger and the touch screen, it is inconvenient to accurately and effectively pull the progress bar to the desired position. At the same time, if the user places the mobile device at a certain distance to play the video, or cannot free his hands, he cannot effectively control the playback progress of the video.

Therefore, it is necessary to propose a new technical solution to solve the above technical problems.

Contents of the invention

Embodiments of the present invention provide a method and system for controlling multimedia playback progress, aiming to solve the problem that the existing playback progress cannot be controlled in a timely and effective manner because the existing playback progress must be controlled by manually touching a mobile terminal.

The embodiment of the present invention is achieved in this way, a multimedia playback progress control method, the multimedia playback progress control method includes:

The smart wearable device obtains the shaking parameter information of the smart wearable device;

The smart wearable device compares the shaking parameter information with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the preset progress control rule table includes: shaking parameter information and progress control signal The corresponding rules of and the corresponding rules of the progress control signal and the progress time value;

The mobile terminal receives the progress control signal, compares the progress control signal with the preset progress control rule table, and obtains the progress time value to be adjusted;

The mobile terminal adjusts the playing progress of the multimedia in the mobile terminal according to the progress time value to be adjusted.

Optionally, the smart wearable device compares the shaking parameter information with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, specifically including:

The smart wearable device acquires the initial swing direction of the smart wearable device;

The smart wearable device acquires the number of swings of the smart wearable device;

The smart wearable device compares the initial swing direction and the swing times with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the swing of the preset progress control rule table The swing parameter information includes: initial swing direction and swing times.

Optionally, the smart wearable device compares the shaking parameter information with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, specifically including:

The smart wearable device acquires the initial swing direction of the smart wearable device;

The smart wearable device obtains the swing range of the smart wearable device;

The smart wearable device compares the initial swing direction and the swing amplitude with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the swing of the preset progress control rule table The swing parameter information includes: initial swing direction and swing amplitude.

Optionally, the smart wearable device compares the shaking parameter information with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, specifically including:

The smart wearable device acquires the initial swing direction of the smart wearable device;

The smart wearable device acquires the swinging force of the smart wearable device;

The smart wearable device compares the initial swing direction and the swing speed with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the swing of the preset progress control rule table The swing parameter information includes: initial swing direction and swing force.

Optionally, before the smart wearable device acquires the swing parameter information of the smart wearable device, it also includes:

The smart wearable device obtains the distance value from the mobile terminal;

The smart wearable device compares the distance value with the preset sensing distance value, and judges whether the smart wearable device is within the preset sensing range.

Another object of the embodiments of the present invention is to provide a multimedia playback progress control system, the multimedia playback progress control system comprising:

Smart wearable devices and mobile terminals;

The smart wearable device includes:

A swing parameter information acquisition unit, configured to acquire swing parameter information of the smart wearable device;

The progress control signal generating and sending unit is used to compare the swing parameter information with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal, and the preset progress control rule table includes: The corresponding rules between the dynamic parameter information and the schedule control signal, and the corresponding rules between the schedule control signal and the schedule time value;

The mobile terminal includes:

a progress time value acquisition unit, configured to receive the progress control signal, compare the progress control signal with the preset progress control rule table, and obtain the progress time value to be adjusted;

A playing progress adjusting unit, configured to adjust the playing progress of the multimedia in the mobile terminal according to the progress time value to be adjusted.

Optionally, the progress control signal generating and sending unit specifically includes:

A first swing direction acquisition module, configured to acquire the initial swing direction of the smart wearable device;

The swing times acquisition module acquires the swing times of the smart wearable device;

The first progress control signal generating and sending module is used to compare the initial swing direction and the swing times with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal, The swing parameter information in the preset schedule control rule table includes: initial swing direction and swing times.

Optionally, the progress control signal generating and sending unit specifically includes:

The second swing direction acquisition module is used to acquire the initial swing direction of the smart wearable device;

The swing range acquisition module acquires the swing range of the smart wearable device;

The second progress control signal generating and sending module is used to compare the initial swing direction and the swing amplitude with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal, The swing parameter information in the preset schedule control rule table includes: initial swing direction and swing range.

Optionally, the progress control signal generating and sending unit specifically includes:

A third swing direction acquisition module, configured to acquire the initial swing direction of the smart wearable device;

The swinging force acquisition module acquires the swinging force of the smart wearable device;

The third progress control signal generating and sending module is used to compare the initial swing direction and the swing speed with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal, so The swing parameter information in the preset schedule control rule table includes: initial swing direction and swing speed.

Optionally, the smart wearable device also includes:

a distance value obtaining unit, configured to obtain a distance value between the smart wearable device and the mobile terminal;

The distance value judging unit is configured to compare the distance value with a preset sensing distance value, and judge whether the smart wearable device is within a preset sensing range.

In the embodiment of the present invention, because the smart wearable device compares the shaking parameter information of the smart wearable device with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the mobile terminal The progress control signal is compared with the preset progress control rule table to obtain the progress time value that needs to be adjusted, so that the mobile terminal adjusts the playback progress of the multimedia in the mobile terminal according to the progress time value that needs to be adjusted, and the user does not need to touch The mobile terminal can effectively control the progress of playing multimedia, which improves the flexibility of controlling the progress of playing multimedia.

Description of drawings

Fig. 1 is the flow chart of a kind of multimedia playing progress control method provided by the first embodiment of the present invention;

Fig. 2 is a structural diagram of a multimedia playback progress control system provided by the second embodiment of the present invention.

detailed description

In order to make the object, technical solution and advantages of the present invention more clear, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

It should be understood that when used in this specification and the appended claims, the term "comprising" indicates the presence of described features, integers, steps, operations, elements and/or components, but does not exclude one or more other features. , whole, step, operation, element, component and/or the presence or addition of a collection thereof.

It should also be understood that the terminology used in the description of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the present invention. As used in this specification and the appended claims, the singular forms "a", "an" and "the" are intended to include plural referents unless the context clearly dictates otherwise.

It should also be further understood that the term "and/or" used in the description of the present invention and the appended claims refers to any combination and all possible combinations of one or more of the associated listed items, and includes these combinations .

As used in this specification and the appended claims, the term "if" may be construed as "when" or "once" or "in response to determining" or "in response to detecting" depending on the context . Similarly, the phrase "if determined" or "if [the described condition or event] is detected" may be construed, depending on the context, to mean "once determined" or "in response to the determination" or "once detected [the described condition or event] ]” or “in response to detection of [described condition or event]”.

In the embodiment of the present invention, the smart wearable device obtains the swing parameter information of the smart wearable device, and the smart wearable device compares the swing parameter information with the preset progress control rule table, generates a corresponding progress control signal and sends it to The mobile terminal, the preset progress control rule table includes: the corresponding rule between the shaking parameter information and the progress control signal and the corresponding rule between the progress control signal and the progress time value, the mobile terminal receives the progress control signal, and stores the progress The control signal is compared with the preset progress control rule table to obtain the progress time value to be adjusted, and the mobile terminal adjusts the multimedia playing progress in the mobile terminal according to the progress time value to be adjusted.

In order to illustrate the technical solutions of the present invention, specific examples are used below to illustrate.

Embodiment one:

Fig. 1 shows the flow chart of a kind of multimedia playback progress control method that the first embodiment of the present invention provides, and details are as follows:

In step S11, the smart wearable device acquires swing parameter information of the smart wearable device.

Wherein, the swing parameter information includes but not limited to the swing times, swing amplitude and swing force degree of the smart wearable device.

In order to reduce misoperation, before the step S11, including:

A0, smart wearable device detection progress control start command. The progress control start instruction includes a gesture start instruction and/or a password start instruction.

Specifically, the user can start the multimedia playback progress control of the smart wearable device through a gesture, and when the user's gesture is the same as the preset gesture in the smart wearable device, the smart wearable device starts the multimedia playback progress control. The user can also start the multimedia playback progress control of the smart wearable device through a password. For example, use a voice password to start the command. When the smart wearable device detects that the voice password start command entered by the user is the same as the preset voice password start command in the smart wearable , the smart wearable device starts multimedia playback progress control. Of course, the schedule control startup instruction can also use other startup instructions such as fingerprint startup or button startup, which is not limited here.

Optionally, in order to improve the accuracy of the smart wearable device in controlling the progress of multimedia playback, before the step S11, it also includes:

A1. The smart wearable device obtains the distance value from the mobile terminal.

A2. The smart wearable device compares the distance value with the preset sensing distance value, and judges whether the smart wearable device is within the preset sensing range.

Specifically, the smart wearable device is connected to the mobile terminal in a wireless manner, for example, connected to the mobile terminal in a wireless manner such as WiFi, infrared or Bluetooth. The sensing ranges of the above methods are limited, therefore, by detecting whether the smart wearable device is within the sensing area, the accuracy of the smart wearable device in controlling the progress of the multimedia can be improved.

Step S12, the smart wearable device compares the shaking parameter information with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the preset progress control rule table includes: shaking parameter information and The corresponding rules of the progress control signal and the corresponding rules of the progress control signal and the progress time value.

When the shaking parameter information includes information about the number of times of shaking, the step S21 specifically includes:

B1. The smart wearable device acquires the initial swing direction of the smart wearable device.

B2. The smart wearable device obtains the number of swings of the smart wearable device.

B3. The smart wearable device compares the initial swing direction and the swing times with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the preset progress control rule table Including: the corresponding rules of the initial swinging direction and the number of swings and the progress control signal, and the corresponding rules of the progress control signal and the progress time value.

For example, the initial swinging direction is left, swinging once corresponds to the backward progress control signal Nback1, and the corresponding progress time value is backward X (such as 1 minute); swinging twice corresponds to the backward progress control signal Nback2 , the corresponding progress time value is back 2*X, that is, the number of swings*X (such as 2 minutes), and so on. The initial swinging direction is right, swinging once corresponds to the advance progress control signal Nadvance1, and the corresponding progress time value is forward X (such as 1 minute); swinging twice corresponds to the advance progress control signal Nadvance2, which corresponds to The progress time value of is 2*X forward, and so on. Optionally, the corresponding rule between the initial swing direction and the number of swings and the progress control signal, and the corresponding rule between the progress control signal and the progress time value may also be as follows: When the number of swings of the smart wearable device is not less than 2 times, Get the time interval between two swings, the initial swing direction is left, the first swing corresponds to the backward progress control signal Nback1, and the corresponding progress time value is backward M (such as 1 minute), when the time If the interval is less than or equal to the preset time interval, then the second swing corresponds to the backward progress control signal Nback5, and the corresponding progress time value is backward N, and N>2*M (such as 5 minutes). The case where the initial swinging direction is right is the same, and will not be repeated here.

When the swing parameter information includes swing amplitude information, the step S21 specifically includes:

C1. The smart wearable device obtains the initial swing direction of the smart wearable device.

C2. The smart wearable device obtains the swing range of the smart wearable device. The swing range is the absolute distance between the initial position of the smart wearable device and the position after the swing.

C3. The smart wearable device compares the initial swing direction and the swing amplitude with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the preset progress control rule table Including: the corresponding rules of the initial swing direction and swing amplitude and the progress control signal, and the corresponding rules of the progress control signal and the progress time value.

For example, the initial swinging direction is left, and the swinging amplitude, that is, the absolute distance value is 3 centimeters, which corresponds to the backward progress control signal Dback3, and the corresponding progress time value is backward such as 3 minutes); the swinging range, that is, the absolute distance value, is 4 Centimeter corresponds to the backward progress control signal Dback4, and the corresponding progress time value is 4 minutes backward, and so on. The initial swinging direction is right, the swinging amplitude, that is, the absolute distance value is 3 cm, corresponding to the advance progress control signal Dadvance3, and the corresponding progress time value is 3 minutes forward; the swinging range, that is, the absolute distance value is 4 cm, corresponding to is the forward progress control signal Dadvance4, and the corresponding progress time value is 4 minutes forward, and so on.

When the swinging parameter information includes swinging force information, the step S21 specifically includes:

D1. The smart wearable device obtains the initial swing direction of the smart wearable device.

D2. The smart wearable device acquires the swinging force of the smart wearable device. The shaking force refers to the strength when the smart device is shaken.

D3. The smart wearable device compares the initial swing direction and the swing speed with the preset progress control rule table, generates a corresponding progress control signal and sends it to the mobile terminal, and the preset progress control rule table Including: the corresponding rules of the initial swinging direction and swinging speed and the progress control signal, and the corresponding rules of the progress control signal and the progress time value.

For example, the initial swinging direction is left, the swinging force is 5N, corresponding to the backward progress control signal Pback5, and the corresponding progress time value is 5 minutes backward; the swinging force is 10N, corresponding to the backward progress control signal Pback10, corresponding to The progress time value of is set back 10 minutes, and so on. The initial swinging direction is right, the swinging force is 5N, corresponding to the advance progress control signal Padvance5, and the corresponding progress time value is 5 minutes forward; the swinging force is 10N, corresponding to the forward progress control signal Padvance10, the corresponding progress Time values advance 10 minutes, and so on.

Since the user only needs to shake the smart wearable device by hand, the smart wearable device can compare the shaking parameter information with the preset progress control rule table to obtain the playback time to be adjusted, which increases the flexibility and fun of the user's multimedia playback progress control.

It should be noted that the user can set the shaking parameters of the smart wearable device by himself, that is, the specific corresponding relationship between the number of times of shaking, the amplitude of shaking or the speed of shaking, the progress control signal and the progress time value, and there is no limitation here.

Step S13, the mobile terminal receives the progress control signal, compares the progress control signal with the preset progress control rule table, and obtains the progress time value to be adjusted.

Specifically, after the mobile terminal receives the progress control signal, the mobile terminal suspends the multimedia that is currently playing video/audio, and then compares the progress control signal with the preset progress control rule table to obtain the progress that needs to be adjusted. time value. For example, when the progress control signal received by the mobile terminal is Nback2, the corresponding progress time value is obtained according to the preset progress control rule table to go back 2 minutes.

Step S14, the mobile terminal adjusts the playback progress of the multimedia in the mobile terminal according to the progress time value to be adjusted.

Specifically, the current playing time of the multimedia is acquired, and on the basis of the current playing time, the playing progress of the multimedia in the mobile terminal is adjusted according to the progress time value to be adjusted. For example, when the obtained progress time value is backward 2 minutes, adjust it based on the current pause playback time to make it backward 2 minutes, end the pause after the adjustment is completed, and continue to play the multimedia.

In the first embodiment of the present invention, because the smart wearable device compares the swing parameter information of the smart wearable device, such as the number of swings, swing amplitude or swing speed, with the preset schedule control rule table, to generate a corresponding progress control signal and send it to the mobile terminal, and the mobile terminal compares the progress control signal with the preset progress control rule table to obtain the progress time value that needs to be adjusted, so that the mobile terminal adjusts the progress time value according to the progress time value that needs to be adjusted. For the playing progress of the multimedia in the mobile terminal, the user can effectively control the playing progress of the multimedia without touching the mobile terminal, which improves the flexibility of the playing progress of the multimedia.

It should be understood that in the embodiment of the present invention, the sequence numbers of the above-mentioned processes do not mean the order of execution, and the execution order of each process should be determined by its function and internal logic, rather than the implementation process of the embodiment of the present invention. constitute any limitation.

Embodiment two:

Fig. 2 shows a structural diagram of a multimedia playback progress control system provided by a second embodiment of the present invention, and the smart wearable device may include a smart bracelet, a smart watch, and the like. The smart terminal may include user equipment that communicates with one or more core networks via the radio access network RAN, and the user equipment may be a mobile phone (or called a "cellular" phone), a computer with a mobile device, etc., for example, The user equipment may also be a portable, pocket, handheld, computer built-in, or vehicle-mounted mobile device that exchanges voice and/or data with the radio access network. For another example, the mobile device may include a smart phone, a tablet computer, a personal digital assistant PDA, a sales terminal POS, or a vehicle-mounted computer. For ease of description, only parts related to the embodiments of the present invention are shown.

The multimedia playback progress control system includes: a smart wearable device 21 and a mobile terminal 22, the smart wearable device 21 includes a shaking parameter information acquisition unit 211 and a progress control signal generation and sending unit 212, and the mobile terminal includes a progress time value acquisition unit 212. Unit 221 and playback progress adjustment unit 222. in:

The swing parameter information acquisition unit 211 is configured to acquire swing parameter information of the smart wearable device. Wherein, the swing parameter information includes but not limited to the swing times, swing amplitude and swing force degree of the smart wearable device.

In order to reduce misoperation, the smart wearable device 21 also includes:

The instruction detection unit is used for detecting the progress control starting instruction. The progress control start instruction includes a gesture start instruction and/or a password start instruction.

Specifically, the user can start the multimedia playback progress control of the smart wearable device 21 through a gesture, and when the user gesture is the same as the preset gesture in the smart wearable device 21, the smart wearable device 21 starts the multimedia playback progress control. The user can also start the multimedia playback progress control of the smart wearable device 21 through a password, for example, using a voice password start command, when the smart wearable device 21 detects that the voice password start command input by the user and the preset voice password start in the smart wearable device 21 After the instructions are the same, the smart wearable device 21 starts multimedia playback progress control. Of course, the schedule control startup instruction can also use other startup instructions such as fingerprint startup or button startup, which is not limited here.

Optionally, in order to improve the accuracy of the smart wearable device in controlling the progress of multimedia playback, the smart wearable device 21 also includes:

The distance value acquiring unit is configured to acquire the distance value between the smart wearable device 21 and the mobile terminal 22.

The distance value judging unit is configured to compare the distance value with a preset sensing distance value, and judge whether the smart wearable device is within a preset sensing range.

Specifically, the smart wearable device 21 is connected to the mobile terminal 22 in a wireless manner, for example, connected to the mobile terminal 22 in a wireless manner such as WiFi, infrared or Bluetooth. The sensing ranges of the above methods are limited, therefore, by detecting whether the smart wearable device 21 is within the sensing area, the accuracy of the smart wearable device 21 in controlling the progress of the multimedia can be improved.

The progress control signal generating and sending unit 212 is used to compare the shaking parameter information with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal 22, and the preset progress control rule table includes : The corresponding rule between the swing parameter information and the progress control signal, and the corresponding rule between the progress control signal and the progress time value.

When the shaking parameter information includes information about the number of times of shaking, the progress control signal generation and sending unit 212 specifically includes:

A first swing direction acquisition module, configured to acquire the initial swing direction of the smart wearable device 21;

The swing times acquisition module acquires the swing times of the smart wearable device 21;

The first progress control signal generating and sending module is used to compare the initial swing direction and the swing times with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal 22, The swing parameter information in the preset schedule control rule table includes: initial swing direction and swing times.

For example, the initial swinging direction is left, swinging once corresponds to the backward progress control signal Nback1, and the corresponding progress time value is X (for example, 1 minute); swinging twice corresponds to the backward progress control signal Nback2 , the corresponding progress time value is back 2*X, that is, the number of swings*X (such as 2 minutes), and so on. The initial swinging direction is right, swinging once corresponds to the advance progress control signal Nadvance1, and the corresponding progress time value is forward X (such as 1 minute); swinging twice corresponds to the advance progress control signal Nadvance2, which corresponds to The progress time value of is 2*X forward, and so on. Optionally, the corresponding rule between the initial swing direction and the number of swings and the progress control signal, and the corresponding rule between the progress control signal and the progress time value may also be as follows: when the number of swings of the smart wearable device 21 is not less than 2 times , to obtain the time interval between two swings, the initial swing direction is left, the first swing corresponds to the backward progress control signal Nback1, and the corresponding progress time value is backward M (such as 1 minute), when the If the time interval is less than or equal to the preset time interval, the second swing corresponds to the backward progress control signal Nback5, and the corresponding progress time value is backward N, and N>2*M (eg, 5 minutes). The case where the initial swinging direction is right is the same, and will not be repeated here.

Optionally, when the swing parameter information includes swing amplitude information, the progress control signal generating and sending unit 212 specifically includes:

A second swing direction acquisition module, configured to acquire the initial swing direction of the smart wearable device 21;

The swing amplitude acquisition module acquires the swing amplitude of the smart wearable device 21;

The second progress control signal generating and sending module is used to compare the initial swing direction and the swing amplitude with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal 22, The swing parameter information in the preset schedule control rule table includes: initial swing direction and swing amplitude.

For example, the initial swinging direction is left, the swinging range, that is, the absolute distance value is 3 cm, corresponding to the backward progress control signal Dback3, and the corresponding progress time value is 3 minutes backward; the swinging range, that is, the absolute distance value, is 4 cm, Corresponding to the backward progress control signal Dback4, the corresponding progress time value is 4 minutes backward, and so on. The initial swinging direction is right, the swinging amplitude, that is, the absolute distance value is 3 cm, corresponding to the advance progress control signal Dadvance3, and the corresponding progress time value is 3 minutes forward; the swinging range, that is, the absolute distance value is 4 cm, corresponding to is the forward progress control signal Dadvance4, and the corresponding progress time value is 4 minutes forward, and so on.

Optionally, when the swinging parameter information includes swinging degree information, the progress control signal generating and sending unit 212 specifically includes:

A third swing direction acquisition module, configured to acquire the initial swing direction of the smart wearable device 21;

The swinging force acquisition module acquires the swinging force of the smart wearable device 21;

The third progress control signal generating and sending module is used to compare the initial swing direction and the swing speed with the preset progress control rule table, generate a corresponding progress control signal and send it to the mobile terminal 22, The swing parameter information in the preset schedule control rule table includes: initial swing direction and swing speed.

For example, the initial swinging direction is left, the swinging force is 5N, corresponding to the backward progress control signal Pback5, and the corresponding progress time value is 5 minutes backward; the swinging force is 10N, corresponding to the backward progress control signal Pback10, corresponding to The progress time value of is set back 10 minutes, and so on. The initial swinging direction is right, the swinging force is 5N, corresponding to the advance progress control signal Padvance5, and the corresponding progress time value is 5 minutes forward; the swinging force is 10N, corresponding to the forward progress control signal Padvance10, the corresponding progress Time values advance 10 minutes, and so on.

Since the user only needs to shake the smart wearable device 21 manually, the smart wearable device 21 can compare the shake parameter information with the preset progress control rule table to obtain the time to adjust the playback time, which increases the flexibility and fun of the user's multimedia playback progress control sex.

It should be noted that the user can set the shaking parameters of the smart wearable device 21 by himself, that is, the specific corresponding relationship between the number of times of shaking, the amplitude of shaking or the degree of shaking force, the progress control signal and the progress time value, which is not limited here.

The schedule time value acquiring unit 221 is configured to receive the schedule control signal, compare the schedule control signal with the preset schedule control rule table, and acquire the schedule time value to be adjusted.

Specifically, after the mobile terminal 22 receives the progress control signal, the mobile terminal 22 suspends the multimedia that is currently playing video/audio, and then compares the progress control signal with the preset progress control rule table to obtain the required adjustment. The progress time value. For example, when the progress control signal received by the mobile terminal 22 is Nback2, the corresponding progress time value is obtained according to the preset progress control rule table to go back 2 minutes.

The playing progress adjusting unit 222 is configured to adjust the playing progress of the multimedia in the mobile terminal 22 according to the progress time value to be adjusted.

Specifically, the current playing time of the multimedia is obtained, and on the basis of the current playing time, the playing progress of the multimedia in the mobile terminal 22 is adjusted according to the progress time value to be adjusted. For example, when the obtained progress time value is backward 2 minutes, adjust it based on the current pause playback time to make it backward 2 minutes, end the pause after the adjustment is completed, and continue to play the multimedia.

In the second embodiment of the present invention, because the smart wearable device compares the swing parameter information of the smart wearable device, such as the number of swings, swing amplitude or swing speed, with the preset schedule control rule table, to generate a corresponding progress control signal and send it to the mobile terminal, and the mobile terminal compares the progress control signal with the preset progress control rule table to obtain the progress time value that needs to be adjusted, so that the mobile terminal adjusts the progress time value according to the progress time value that needs to be adjusted. For the playing progress of the multimedia in the mobile terminal, the user can effectively control the playing progress of the multimedia without touching the mobile terminal, which improves the flexibility of the playing progress of the multimedia.

Those skilled in the art can appreciate that the units and algorithm steps of the examples described in conjunction with the embodiments disclosed herein can be implemented by electronic hardware, or a combination of computer software and electronic hardware. Whether these functions are executed by hardware or software depends on the specific application and design constraints of the technical solution. Those skilled in the art may use different methods to implement the described functions for each specific application, but such implementation should not be regarded as exceeding the scope of the present invention.

Those skilled in the art can clearly understand that for the convenience and brevity of the description, the specific working process of the above-described system, device and unit can refer to the corresponding process in the foregoing method embodiment, which will not be repeated here.

In the several embodiments provided in this application, it should be understood that the disclosed systems, devices and methods may be implemented in other ways. For example, the device embodiments described above are only illustrative. For example, the division of the units is only a logical function division. In actual implementation, there may be other division methods. For example, multiple units or components can be combined or May be integrated into another system, or some features may be ignored, or not implemented. In another point, the mutual coupling or direct coupling or communication connection shown or discussed may be through some interfaces, and the indirect coupling or communication connection of devices or units may be in electrical, mechanical or other forms.

The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, they may be located in one place, or may be distributed to multiple network units. Part or all of the units can be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated into one processing unit, each unit may exist separately physically, or two or more units may be integrated into one unit.

If the functions described above are realized in the form of software function units and sold or used as independent products, they can be stored in a computer-readable storage medium. Based on this understanding, the essence of the technical solution of the present invention or the part that contributes to the prior art or the part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium, including Several instructions are used to make a computer device (which may be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the methods described in various embodiments of the present invention. The aforementioned storage medium includes: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disk and other media that can store program codes. .

The above is only a specific embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Anyone skilled in the art can easily think of changes or substitutions within the technical scope disclosed in the present invention. Should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be based on the protection scope of the claims.

Claims (10)

1. a kind of multimedia progress monitoring method, it is characterised in that the multimedia progress monitoring method includes：

Intelligent worn device obtains the whipping parameter information of the Intelligent worn device；

Intelligent worn device compares the whipping parameter information with default progress monitoring rule list, generation correspondence progress monitoring letter Number and send it to mobile terminal, the default progress monitoring rule list includes：Whipping parameter information and progress monitoring signal The rule of correspondence and progress monitoring signal and progression time value the rule of correspondence；

Mobile terminal receives the progress monitoring signal, and by the progress monitoring signal and the default progress monitoring rule list Control, the progression time value that acquisition need to be adjusted；

Mobile terminal is according to multimedia playing progress rate in the progression time value adjustment mobile terminal that need to be adjusted.

2. multimedia progress monitoring method according to claim 1, it is characterised in that the Intelligent worn device will The whipping parameter information is compareed with default progress monitoring rule list, and generation correspondence progress monitoring signal simultaneously sends it to movement Terminal, specifically includes：

Intelligent worn device obtains the initial whipping direction of the Intelligent worn device；

Intelligent worn device obtains the whipping number of times of the Intelligent worn device；

Intelligent worn device compares the initial whipping direction and the whipping number of times with the default progress monitoring rule list, Generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, the whipping parameter information of the default progress monitoring rule list Including：Initial whipping direction and whipping number of times.

3. multimedia progress monitoring method according to claim 1, it is characterised in that the Intelligent worn device will The whipping parameter information is compareed with default progress monitoring rule list, and generation correspondence progress monitoring signal simultaneously sends it to movement Terminal, specifically includes：

Intelligent worn device obtains the initial whipping direction of the Intelligent worn device；

Intelligent worn device obtains the whipping amplitude of the Intelligent worn device；

Intelligent worn device compares the initial whipping direction and the whipping amplitude with the default progress monitoring rule list, Generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, the whipping parameter information of the default progress monitoring rule list Including：Initial whipping direction and whipping amplitude.

4. multimedia progress monitoring method according to claim 1, it is characterised in that the Intelligent worn device will The whipping parameter information is compareed with default progress monitoring rule list, and generation correspondence progress monitoring signal simultaneously sends it to movement Terminal, specifically includes：

Intelligent worn device obtains the initial whipping direction of the Intelligent worn device；

Intelligent worn device obtains the whipping dynamics of the Intelligent worn device；

Intelligent worn device compares the initial whipping direction and the whipping dynamics with the default progress monitoring rule list, Generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, the whipping parameter information of the default progress monitoring rule list Including：Initial whipping direction and whipping dynamics.

5. the multimedia progress monitoring method according to any one of Claims 1-4, it is characterised in that in the intelligence Before energy wearable device obtains the whipping parameter information of the Intelligent worn device, also include：

Intelligent worn device obtains the distance value with mobile terminal；

Whether with predetermined inductive distance value be compared the distance value by Intelligent worn device, judges the Intelligent worn device In the range of predetermined inductive.

6. a kind of multimedia progress monitoring system, it is characterised in that the Media playing course control system includes：

Intelligent worn device and mobile terminal；

The Intelligent worn device includes：

Whipping parameter information acquiring unit, the whipping parameter information for obtaining the Intelligent worn device；

Progress monitoring signal generation and transmitting element, for by the whipping parameter information and default progress monitoring rule list pair According to generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, and the default progress monitoring rule list includes：Whipping is joined Number information and the rule of correspondence and progress monitoring signal of progress monitoring signal and the rule of correspondence of progression time value；

The mobile terminal includes：

Progression time value acquiring unit is for receiving the progress monitoring signal and the progress monitoring signal is pre- with described If progress monitoring rule list is compareed, the progression time value that acquisition need to be adjusted；

Playing progress rate adjustment unit, for according to multimedia in the progression time value adjustment mobile terminal that need to be adjusted Playing progress rate.

7. multimedia progress monitoring system according to claim 6, it is characterised in that the progress monitoring signal life Specifically included into transmitting element：

First whipping direction acquisition module, the initial whipping direction for obtaining the Intelligent worn device；

Whipping number of times acquisition module, obtains the whipping number of times of the Intelligent worn device；

First progress monitoring signal generation and sending module, for by the initial whipping direction and the whipping number of times with it is described Default progress monitoring rule list control, generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, the default progress The whipping parameter information of control rule table includes：Initial whipping direction and whipping number of times.

8. multimedia progress monitoring system according to claim 7, it is characterised in that the progress monitoring signal life Specifically included into transmitting element：

Second whipping direction acquisition module, the initial whipping direction for obtaining the Intelligent worn device；

Whipping amplitude acquisition module, obtains the whipping amplitude of the Intelligent worn device；

Second progress monitoring signal generation and sending module, for by the initial whipping direction and the whipping amplitude with it is described Default progress monitoring rule list control, generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, the default progress The whipping parameter information of control rule table includes：Initial whipping direction and whipping amplitude.

9. multimedia progress monitoring system according to claim 7, it is characterised in that the progress monitoring signal life Specifically included into transmitting element：

3rd whipping direction acquisition module, the initial whipping direction for obtaining the Intelligent worn device；

Whipping dynamics acquisition module, obtains the whipping dynamics of the Intelligent worn device；

3rd progress monitoring signal generation and sending module, for by the initial whipping direction and the whipping dynamics with it is described Default progress monitoring rule list control, generation correspondence progress monitoring signal simultaneously sends it to mobile terminal, the default progress The whipping parameter information of control rule table includes：Initial whipping direction and whipping dynamics.

10. the multimedia progress monitoring system according to any one of claim 6 to 9, it is characterised in that the intelligence Wearable device also includes：

Distance value acquiring unit, the distance value for obtaining the Intelligent worn device and mobile terminal；

Distance value judging unit, for the distance value to be compared with predetermined inductive distance value, judges the intelligence wearing Whether equipment is in the range of predetermined inductive.